OCT Phantoms Initiative: A new effort to bring standardized tools for OCT system characterization and validation to the community

Explore Optical Coherence Tomography News (13 hours, 22 min ago)

Over the past two decades, the capabilities, applications, and usage of OCT have advanced remarkably. Given the maturity of OCT, there is an imminent need for widely available and standardized tools to benchmark OCT device performance. Controlled test objects, generally known as phantoms, are essential to satisfy this need by serving as a stable, well-characterized reference which is periodically imaged. The proper phantom can ensure data accuracy and consistency over time, among multiple instruments, and across device manufacturers. This is a key step towards standardization and quality assurance on par with the most established medical imaging modalities. The OCT Phantoms ... (Read Full Article)

Comment Mentions:   University of London   Pete H. Tomlins   University of Western Australia

Photonic Generation and Wireless Transmission of Linearly/Nonlinearly Continuously Tunable Chirped Millimeter-Wave Waveforms with High Time-Bandwidth Product at W-band

Explore IEEE Xplore (13 hours, 39 min ago) Tunable Sources

We demonstrate a novel scheme for photonic generation of chirped millimeter-wave (MMW) pulse with ultra-high time-bandwidth product (TBP). By using a fast wavelength sweeping laser with a narrow instantaneous linewidth, wideband/high-power photonic transmitter-mixers, and heterodyne beating technique, continuously tunable chirped MMW waveforms at W-band are generated and detected through wireless transmission. Compared with the reported optical grating based wavelength-to-time mapping techniques for chirped pulse generation, our approach eliminates the problem in limited frequency resolution of grating, which seriously limits the continuity, tunability, and TBP of the generated waveform. Furthermore, by changing the alternating current (AC) waveform of the driving signal ... (Read Full Article)

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Reproducibility of Retinal Blood Flow Measurements Derived From Semi-Automated Doppler OCT Analysis

Explore SLACK Journals (14 hours, 13 min ago) Ophthalmology

BACKGROUND AND OBJECTIVE: To evaluate reproducibility and intergrader agreement of total retinal blood flow (TRBF) measurements obtained by semi-automated grading of Doppler Fourier-domain optical coherence tomography (FD-OCT) scans. PATIENTS AND METHODS: Doppler FD-OCT scans were obtained from 20 eyes of 18 subjects (10 glaucomatous, 10 normal). Scans were obtained using a circumpapillary scan protocol and analyzed using the Doppler OCT of Retinal Circulation software (version 2). Two masked, independent human graders manually refined the scans, adding or deleting vessels, changing vessel boundaries, and classifying vessels as veins or arteries. TRBF was calculated automatically by software summing flow in all veins. ... (Read Full Article)

Comment Mentions:   Optovue   David Huang   Heidelberg Engineering

Frontiers in optical imaging of cerebral blood flow and metabolism

Explore Nature Publishing Group (14 hours, 19 min ago) Doppler

In vivo optical imaging of cerebral blood flow (CBF) and metabolism did not exist 50 years ago. While point optical fluorescence and absorption measurements of cellular metabolism and hemoglobin concentrations had already been introduced by then, point blood flow measurements appeared only 40 years ago. The advent of digital cameras has significantly advanced two-dimensional optical imaging of neuronal, metabolic, vascular, and hemodynamic signals. More recently, advanced laser sources have enabled a variety of novel three-dimensional high-spatial-resolution imaging approaches. Combined, as we discuss here, these methods are permitting a multifaceted investigation of the local regulation of CBF and metabolism with unprecedented ... (Read Full Article)

Comment Mentions:   Vivek J. Srinivasan   Massachusetts General Hospital   University of Pennsylvania

Natural History of Stent Edge Dissection, Tissue Protrusion and Incomplete Stent Apposition Detectable Only on Optical Coherence Tomography After Stent Implantation

Explore jstage.jst.go.jp (14 hours, 45 min ago) Cardiology

Background: The clinical impact of stent edge dissection, tissue protrusion, and incomplete stent apposition (ISA) after stent implantation, detectable only on optical coherence tomography (OCT), is still unknown because the natural course has not been investigated. Methods and Results: All consecutive patients with angina pectoris in whom both intravascular ultrasound (IVUS) and OCT were performed immediately after stenting and at follow-up were included in the present study. The natural history of OCT-detected stent edge dissection, tissue protrusion, and ISA during follow-up was investigated. A total of 36 patients with 39 lesions was analyzed. At baseline, OCT showed 12 stent edge ... (Read Full Article)

Comment Mentions:   Lightlab M3 Imaging Console   Kawasaki Medical School   Hiroyuki Okura

Optical Coherence-domain Imaging of Subcutaneous Human Blood Vessels in vivo

Explore sapub.org (Jan 26 2012) Dermatology

Experimental methods of Optical Coherence Tomography (OCT) are applied for two-dimensional mapping of subcutaneous human blood vessels. Structural images of in vivo human finger and human palm macro vessels (0.2-1.0 mm) before and after optical clearing using the modified low power rapid scanning optical delay line are presented. Images are scanned with 12 µm minimum spatial resolution. The described modifications enable to apply low power (0.4-0.5 mW), low noise broadband near infrared light source and to obtain structural images with detection of not only reflected but also multiply scattered coherence-gated photons. The achieved transcutaneous probing depth is about 1.6-1.8 mm (Read Full Article)

Comment Mentions:   Wolfgang Drexler   Sergey G. Proskurin

Alzheimer's Disease and Glaucoma: Imaging the Biomarkers of Neurodegenerative Disease

Explore Hindawi Publishing Corporation (Jan 26 2012) Neurology , Ophthalmology

Imaging through the visual system in Alzheimer's disease, with the technology currently in widespread use for the diagnosis and management of eye disease such as glaucoma and macular degeneration, is proving to be promising. In vivo cross-section imaging during an annual comprehensive eye exam has been available for a decade for glaucoma and macular degeneration, and this same imaging, using Optical Coherence Tomography, has been demonstrated to show deficits specific to AD and mild cognitive impairment. These deficits are in the form of nerve fiber layer tissue drop out in the retina and optic nerve. The retrograde loss of nerve ... (Read Full Article)

Comment Mentions:   Denise A. Valenti

Integrated Tunable Quantum-Dot Laser for Optical Coherence Tomography in the 1.7 um Wavelength Region

Explore IEEE Xplore (Jan 24 2012) Tunable Sources

In this paper, we present the design and characterization of a monolithically integrated tunable laser for optical coherence tomography in medicine. This laser is the first monolithic photonic integrated circuit containing quantum-dot amplifiers, phase modulators, and passive components. We demonstrate electro-optical tuning capabilities over 60 nm between 1685 and 1745 nm, which is the largest tuning range demonstrated for an arrayed waveguide grating controlled tunable laser. Furthermore, it demonstrates that the active-passive integration technology designed for the 1550 nm telecom wavelength region can also be used in the 1600–1800 nm region. The tunable laser has a 0.11 nm effective linewidth ... (Read Full Article)

Comment Mentions:   Zhejiang University

Thermal resistance reduction in high power superluminescent diodes by using active multi-mode interferometer

Explore Applied Physics Letters (Jan 19 2012) Broadband Sources

Low thermal resistance of high power superluminescent diodes (SLEDs) by using active multi-mode interferometer (active-MMI) is presented in this paper. The active layer temperature evaluation demonstrates that the power saturation mechanism in active-MMI SLED is heat for the first time. Low thermal resistance of 4.83 K/W in active-MMI SLEDs leads to a high power of 115 mW. Moreover, the effect of the active area size on the output power is demonstrated both experimentally and theoretically. Good agreement between the theoretical and experimental results indicates that active-MMI configuration is a new design in support of efficient heat dissipation and thermal resistance ... (Read Full Article)

Comment Mentions:   Exalos   Kyushu University

New EXALOS High-Performance 1550-nm Swept Sources to Address Fiber-Optic Sensing and Optical Coherence Tomography Imaging Applications

Explore Optical Coherence Tomography News (Jan 18 2012) Other Business News , Tunable Sources

Exalos Press Release - EXALOS AG is announcing during BiOS / Photonics West the introduction of another member of the RapidSweep Swept Source family. With customizable tuning ranges (up to 200nm) and sweep frequencies (from 2 kHz to 150 kHz) in the 1550-nm spectrum, the ESS-1550 Swept Sources offer flexible system designs for applications in fiber-optic sensing and swept source Optical Coherence Tomography imaging. For system integration the Swept Source is delivered with complete driver electronics, customized OEM packages are available upon request. RapidSweep Swept Source – a high-end sweeping laser with a small footprint. (Read Full Article)

Comment Mentions:   Exalos

Cracking Open the Scientific Process

Explore The New York Times (Jan 17 2012)

The New England Journal of Medicine marks its 200th anniversary this year with a timeline celebrating the scientific advances first described in its pages: the stethoscope (1816), the use of ether for anesthesia (1846), and disinfecting hands and instruments before surgery (1867), among others. For centuries, this is how science has operated — through research done in private, then submitted to science and medical journals to be reviewed by peers and published for the benefit of other researchers and the public at large. But to many scientists, the longevity of that process is nothing to celebrate. (Read Full Article)

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Optical coherence microscopy for deep tissue imaging of the cerebral cortex with intrinsic contrast

Explore opticsinfobase.org (Jan 17 2012) Microscopy

In vivo optical microscopic imaging techniques have recently emerged as important tools for the study of neurobiological development and pathophysiology. In particular, two-photon microscopy has proved to be a robust and highly flexible method for in vivo imaging in highly scattering tissue. However, two-photon imaging typically requires extrinsic dyes or contrast agents, and imaging depths are limited to a few hundred microns. Here we demonstrate Optical Coherence Microscopy (OCM) for in vivo imaging of neuronal cell bodies and cortical myelination up to depths of ~1.3 mm in the rat neocortex. Imaging does not require the administration of exogenous dyes or ... (Read Full Article)

Comment Mentions:   Thorlabs   Alex E. Cable   Vivek J. Srinivasan

Postdoctoral & Research Associate Positions at Nanyang Technological University, Singapore

Explore Optical Coherence Tomography News (Jan 16 2012) Jobs & Studentships

Position description: One year full-time research positions (1 Research Associate, 1 Postdoctorate Research Fellow), with possibility of extension, are available in the School of Electrical and Electronic Engineering at the Nanyang Technological University in Singapore (www.ntu.edu.sg/eee ). The successful candidate is expected to develop novel image processing methods for monitoring and screening ocular diseases using high definition optical coherence tomography. Qualifications: (1)BEng/Master degree for the Research Associate position or PhD for the Postdoctorate/Research Fellow position in Electrical & Electronic, Computer, Biomedical Engineering or related fields. (2)Hands-on experience in biomedical image processing. (3)Strong Matlab or C++ programming skills are preferred. (4)Excellent ... (Read Full Article)

Comment Mentions:   Nanyang Technological University   Pina Marziliano

Tornado Medical Systems Showcases OCT-On-Chip Prototype at Photonics West

Explore Optical Coherence Tomography News (Jan 14 2012) Other Business News

Tornado Medical Systems Press Release - Meeting the need for smaller, cheaper, and more reliable OCT devices, Tornado Medical System is developing the first commercially available OCT system on a chip. Using commercial integrated optics technologies initially developed in the laboratory of Professor Michal Lipson at Cornell University, a MacArthur “Genius” Fellow recently appointed to the company’s Advisory Board, Tornado’s Ithaca based team has developed a compact prototype with a 12um axial resolution and 65nm bandwidth. Tornado’s fully integrated nanophotonics approach will significantly decrease system cost, while providing the robustness that comes with a no-moving-parts design. Tornado will showcase its ... (Read Full Article)

Comment Mentions:   Cornell University   Tornado Medical Systems   Stefan Larson

Effect of multimodal coupling in imaging micro-endoscopic fiber bundle on optical coherence tomography

Explore SpringerLink Home (Jan 13 2012) Gastroenterology

The effect of higher-order modes in fiber bundle imager-based optical coherence tomography (OCT) has been theoretically modeled using coupled fiber mode analysis ignoring the polarization and core size variation in order to visualize the pure effect of multimodal coupling of the imaging bundle. In this model, the optical imaging fiber couples several higher-order modes in addition to the fundamental one due to its high numerical aperture for achieving light confinement to the single core pixel. Those modes become evident in a distance domain using A-mode (depth) OCT based on a mirror sample experiment where multiple peaks are generated by the ... (Read Full Article)

Comment Mentions:   Johns Hopkins University   Jin U. Kang   Korea University

In vivo characterisation of bioresorbable vascular scaffold strut interfaces using optical coherence tomography with Gaussian line spread function analysis

Explore eurointervention.org (Jan 12 2012) Cardiology

Optical coherence tomography (OCT) of a bioresorbable vascular scaffold (BVS) produces a highly reflective signal outlining struts. This signal interferes with the measurement of strut thickness, as the boundaries cannot be accurately identified, and with the assessment of coverage, because the neointimal backscattering convolutes that of the polymer, frequently making them indistinguishable from one another. We hypothesise that Gaussian line spread functions (LSFs) can facilitate identification of strut boundaries, improving the accuracy of strut thickness measurements and coverage assessment. Methods and results: Forty-eight randomly selected BVS struts from 12 patients in the ABSORB Cohort B clinical study and four Yucatan ... (Read Full Article)

Comment Mentions:   Erasmus Medical Center   Yoshinobu Onuma   Richard Rapoza

Optovue and Carl Zeiss Meditec Have Reached Settlement in Their Current Patent Infringement Disputes

Explore Optical Coherence Tomography News (Jan 11 2012) Other Business News

Optovue Inc. and Carl Zeiss Meditec Inc. announced today that they have signed a settlement agreement resolving two pending Federal District Court patent infringement cases. Under the terms of the agreement, the companies dismissed all currently pending litigation and entered into a cross-license agreement of certain issued and to be issued patents owned or controlled by each party. The specific terms of the settlement are confidential. About Optovue®(www.optovue.com) Optovue Inc. is a privately-held ophthalmic device company dedicated to working with eye care professionals and clinical researchers to lead the commercialization of new imaging modalities that improve diagnosis and therapy of ... (Read Full Article)

Comment Mentions:   Optovue   Carl Zeiss Meditec   Paul Kealey

Quantitative comparison of contrast and imaging depth of ultrahigh-resolution optical coherence tomography images in 800–1700 nm wavelength region

Explore opticsinfobase.org (Jan 11 2012)

We investigated the wavelength dependence of imaging depth and clearness of structure in ultrahigh-resolution optical coherence tomography over a wide wavelength range. We quantitatively compared the optical properties of samples using supercontinuum sources at five wavelengths, 800 nm, 1060 nm, 1300 nm, 1550 nm, and 1700 nm, with the same system architecture. For samples of industrially used homogeneous materials with low water absorption, the attenuation coefficients of the samples were fitted using Rayleigh scattering theory. We confirmed that the systems with the longer-wavelength sources had lower scattering coefficients and less dependence on the sample materials. For a biomedical sample, we ... (Read Full Article)

Comment Mentions:   Nagoya University   Norihiko Nishizawa

A fiber-based single-unit dual-mode optical Imaging system: Swept source optical coherence tomography and fluorescence spectroscopy

Explore ScienceDirect (Jan 10 2012) Tunable Sources

We propose a fiber optic single-unit but dual-mode optical imaging system that can provide fast cross-sectional imaging capabilities of swept-source optical coherence tomography (SS-OCT) and functional capabilities of fluorescence spectroscopy (FS). By adopting a fiber optic FS system into a fiber-based SS-OCT system, a compact and effective multimodal single-unit SSOCT-FS system could be achieved. Here, the key element of the proposed multimodal imaging system is a specially designed fiber coupler based on double-clad fiber (DCF), which has only cladding-mode coupling capability. The DCF couplers were fabricated with home-drawn DCF by several fabrication methods; a twisting method, a side-polishing method and ... (Read Full Article)

Comment Mentions:   Byeong Ha Lee   Hae Young Choi   Gwangju Institute of Science and Technology

Congratulations to Zhao Wang from CWRU a Winner of a 2012 Student Travel Grant Award

Explore Optical Coherence Tomography News (Jan 9 2012) Cardiology

Zhao Wang from Case Western Reserve University is one of four winners of the OCT News 2012 student travel grant awards (see prior announcement Here). Below is a summary of his work. Coronary artery disease is the leading cause of death worldwide. The rupture of thin-cap fibroatheroma (TCFA) accounts for most acute coronary events. Optical Coherence Tomography (OCT) is able to quantify the fibrous cap (FC) thickness in vivo. Conventional analysis measuring the thinnest part of the FC is subject to inter-observer variability and does not capture the 3-D morphology of the FC. The aim of this study is to ... (Read Full Article)

Comment Mentions:   Andrew M. Rollins   Case Western Reserve University   Marco A. Costa

Congratulations to Jian Ren from Caltech a Winner of a 2012 Student Travel Grant Award

Explore Optical Coherence Tomography News (Jan 9 2012) Ophthalmology , Probes

Jian Ren from the California Institute of Technology is one of four winners of the OCT News 2012 student travel grant awards (see prior announcement Here). Below is a summary of his work. Glaucoma is one type of ophthalmic diseases, where ocular hypertension damages optical nerve, making it the second leading cause of blindness worldwide. One major cause of Open Angle Glaucoma is the poor outflow of aqueous humor through the Trabecular Meshwork (TM). Potential treatments include the micro-bypass stents, which are implanted in the TM and shunt fluid directly to the Schlemm’s Canal (SC) to reduce intraocular pressure. Implanting ... (Read Full Article)

Comment Mentions:   California Institute of Technology   Jigang Wu   Changhuei Yang

Congratulations to Giovanni Ughi from K. U. Leuven a Winner of a 2012 Student Travel Grant Award

Explore Optical Coherence Tomography News (Jan 9 2012) Cardiology

Giovanni Ughi from the Catholic University Leuven is one of four winners of the OCT News 2012 student travel grant awards (see prior announcement Here). Below is a summary of his work. Topic covered by the project is software development for quantitative computer aided automated analysis of intra-vascular OCT images. Automated segmentation of stent struts and lumen, stent apposition, stent coverage and registration of IV-OCT datasets at different instants of times are part of the software research and development. Moreover, tissue characterization to automatically assess atherosclerotic plaques components and morphology are other issues at which the project address. The optical ... (Read Full Article)

Comment Mentions:   Walter Desmet   K. U. Leuven   Giovanni J. Ughi

Congratulations to Chia-Pin Liang From the University of Maryland a Winner of a 2012 Student Travel Grant Award

Explore Optical Coherence Tomography News (Jan 9 2012) Neurology , Doppler

Chia-Pin Liang from the University of Maryland is one of four winners of the OCT News 2012 student travel grant awards (see prior announcement Here). Below is a summary of his work. Stereotactic procedures that require insertion of needle-based instruments into the brain serve important roles in a variety of neurosurgical interventions such as biopsy, catheterization, and electrode placement. The laceration of blood vessels in the path of the advancing needle can result in stroke and even death and is perhaps the most worried complication. Also, the brain may shift during surgery because of cerebrospinal fluid (CSF) leakage so that ... (Read Full Article)

Comment Mentions:   University of Maryland   Yu Chen   Jeremiah Wierwille

Evaluation of structural change and local strain distribution in polymers comparatively imaged by FFSA and OCT techniques

Explore eXPRESS Polymer Letters (Jan 9 2012) NDE/NDT

Mechanical material testing combined with optical coherence tomography (OCT) allows for the first time the immediate detection of inner structural changes along with a qualitative observation of the local strain distribution in surface near bulk regions of semitransparent and translucent specimens. In addition to a 3D full field strain analysis (FFSA) system based on digital image correlation (DIC), a customized spectral domain OCT system operating at 1550 nm was applied for investigation. Exemplified by tensile testing of elastomer particle filled polypropylene specimens, local dissimilarity evaluation of the OCT images was performed. The results show the high potential of OCT to ... (Read Full Article)

Comment Mentions:   David Stifter   Bettina Heise   Zoltan Major